Die drool theory
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Andrew M. Schmalzer
Abstract
When molten plastic is extruded from a die, it sometimes collects on the open face of the die. Known as die drool, this phenomenon costs plastics manufacturers by requiring die cleaning. This has been attributed to many causes, but none of these has led to an equation for the drool rate. In this work, we provide an exact analytical solution for the drool rate, and we base this solution on a postulate of a cohesive slip layer near the die walls. We thus attribute die drool to cohesive failure within the fluid at an internal surface where the fluid slips on itself. We adimensionalize the drool rate with the production rate, and call this the buildup ratio, BR. We provide an exact analytical solution for BR when the cohesive slip layer either slips at the die wall, or when it does not. We examine two important extrusion geometries: slit (which we then extend to pipe) and tube flow. We identify two new experiments: one to measure BR as a function of pressure drop, and another as a function of the die aspect ratio, and we then use our new theory to design droolometers.
©2013 by Walter de Gruyter Berlin Boston
Articles in the same Issue
- Masthead
- Masthead
- Original Articles
- Die drool theory
- Melt extrudate swell behavior of POM/EVA/HDPE/nano-CaCO3 composites
- Preparation and characterization of poly(2-hydroxyethyl methacrylate)/ Na-montmorillonite intercalated nanocomposites
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- Using the Agrawal integral equation to study the thermal degradation of polyvinyl acetate-montmorillonite-dioctadecyl dimethyl ammonium bromide
- Effect of solvents and thermal annealing on the morphology development of a novel block copolymer ionomer: a case study of sulfonated polystyrene-block-fluorinated polyisoprene
- Superabsorbent hydrogels of poly(sodium acrylate) with crude and exfoliated vermiculites
- Cation exchange characterizations of phosphotungstic acid-doped polyvinyl alcohol/polyethersulfone blend membranes by sodium chloride solution
- The impact of selected granulometric properties of poly(vinyl chloride) on the effectiveness of the extrusion process
- Study on thermal properties of polyurethane-urea elastomers prepared with different dianiline chain extenders
Articles in the same Issue
- Masthead
- Masthead
- Original Articles
- Die drool theory
- Melt extrudate swell behavior of POM/EVA/HDPE/nano-CaCO3 composites
- Preparation and characterization of poly(2-hydroxyethyl methacrylate)/ Na-montmorillonite intercalated nanocomposites
- Drying of polyacrylamide-multiwalled carbon nanotube (MWNT) composites with various MWNTs contents: a fluorescence study
- Using the Agrawal integral equation to study the thermal degradation of polyvinyl acetate-montmorillonite-dioctadecyl dimethyl ammonium bromide
- Effect of solvents and thermal annealing on the morphology development of a novel block copolymer ionomer: a case study of sulfonated polystyrene-block-fluorinated polyisoprene
- Superabsorbent hydrogels of poly(sodium acrylate) with crude and exfoliated vermiculites
- Cation exchange characterizations of phosphotungstic acid-doped polyvinyl alcohol/polyethersulfone blend membranes by sodium chloride solution
- The impact of selected granulometric properties of poly(vinyl chloride) on the effectiveness of the extrusion process
- Study on thermal properties of polyurethane-urea elastomers prepared with different dianiline chain extenders
